CN105293118A - Nickel starting sheet pressing device - Google Patents

Nickel starting sheet pressing device Download PDF

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Publication number
CN105293118A
CN105293118A CN201510698068.6A CN201510698068A CN105293118A CN 105293118 A CN105293118 A CN 105293118A CN 201510698068 A CN201510698068 A CN 201510698068A CN 105293118 A CN105293118 A CN 105293118A
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China
Prior art keywords
fork
plate
assembly
cylinder
seat
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Granted
Application number
CN201510698068.6A
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Chinese (zh)
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CN105293118B (en
Inventor
董为民
蒋俊坤
孙东明
许平
孙军锋
尹红
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Kunming University of Science and Technology
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Kunming University of Science and Technology
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Priority to CN201510698068.6A priority Critical patent/CN105293118B/en
Publication of CN105293118A publication Critical patent/CN105293118A/en
Application granted granted Critical
Publication of CN105293118B publication Critical patent/CN105293118B/en
Active legal-status Critical Current
Anticipated expiration legal-status Critical

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Abstract

The invention relates to a nickel starting sheet pressing device and belongs to the technical field of non-ferrous metallurgy machines. The nickel starting sheet pressing device comprises a feeding device, an empty box discharging device, a pressing device body, mechanical arm devices and a discharging device. The feeding device is installed at one end of the pressing device body. The empty box discharging device is installed on the side edge of the feeding device. The discharging device is installed at the other end of the pressing device body. The mechanical arm devices are installed at the two sides of the pressing device body respectively. By means of the nickel starting sheet pressing device, the working procedures such as feeding, conveying, pressing and discharging are achieved automatically, the automatic operation of the whole pressing process is achieved, and the nickel starting sheet pressing operation efficiency can be improved; a nickel starting sheet pile centering device is arranged, and the positioning effect is good; a workbench can be controlled to ascend and descend by the pressing device body so that the mold sticking phenomenon can be effectively avoided; manual operation is not needed in the whole process, and safety accidents can be effectively avoided; operation is easy, the working efficiency is high, and the quality and efficiency of nickel starting sheet pressing can be effectively improved.

Description

A kind of nickel starting sheet pressure device for mark
Technical field
The present invention relates to a kind of nickel starting sheet pressure device for mark, belong to nonferrous metallurgy field of mechanical technique.
Background technology
Nickel, as a kind of strategic materials, is described as " industrial vitamin ", plays vital effect to developing national economy and defense Industry.Cupric, cobalt, gold, silver and platinum family element in thick nickel, need electrorefining, the electrorefining of nickel adopts membrane electrolysis usually, anode is cast with thick nickel fusing, negative electrode is nickel starting sheet, and sulfate liquor used for electrolyte, sulfate and chlorate mixed solution, after energising, negative electrode precipitating nickel, produce electrolysis nickel.
Wherein nickel starting sheet is component part important in electrolytic nickel production process, and the quality of nickel starting sheet pendency degree directly can affect the quality of electric nickel and every technical and economic index of electrolysis.Due to processing technology defect and processing transportation in improper operation cause the nickel starting sheet produced have in various degree with different types of flexural deformation, the requirement of lower groove electrolysis can not be met, the elasticity of nickel metal is better again, so need before groove electrolysis to carry out the process of pressure mark to improve its pendency degree to it under nickel starting sheet.
The manufacturing scale of known domestic most electrolytic nickel manufacturer is all little, the pressure mark process of nickel starting sheet adopts S. A. pressure marking device, namely mark process is pressed automatically to control, but some of them operation need manually complete, and a large amount of human resources and place resource need be taken, nickel starting sheet is pressed, and mark processing operations efficiency is low, hand labor intensity large, can not meet automated production requirement.
Summary of the invention
The object of this invention is to provide a kind of nickel starting sheet pressure device for mark, to solve, existing nickel starting sheet pressure mark processing operations efficiency is low, hand labor intensity large, can not meet the problems such as automated production requirement.
The present invention realizes by following technical scheme: a kind of nickel starting sheet pressure device for mark, comprises and award materials device 113, empty van output unit 114, pressure device for mark 115, robot device 116, drawing mechanism 117, award materials device 113 and be arranged on pressure device for mark 115 one end, empty van output unit 114 is arranged on awards materials device 113 side, drawing mechanism 117 is arranged on pressure device for mark 115 other end, robot device 116 distributing installation is in pressure device for mark 115 both sides, and pressure device for mark 115 comprises oil press 124, chain-type conveying assembly 125, pole plate centering assembly 126, pole plate centering assembly 126 is arranged on chain-type conveying assembly 125 both sides, oil press 124 is arranged in the middle part of chain-type conveying assembly 125, and oil press 124 comprises counterdie panel seat 49, bed die 50, mold 51, patrix panel seat 52, slide block 53, pull bar 54, plunger 55, upper beam 56, base III 63, base III 63 is placed on ground, counterdie panel seat 49, pull bar 54 is arranged on base III 63 respectively, bed die 50 is arranged on counterdie panel seat 49, slide block 53 is arranged on pull bar 54, patrix panel seat 52 is arranged on slide block 53, mold 51 is arranged on patrix panel seat 52, upper beam 56 is arranged on pull bar 54 top, plunger 55 one end is connected with slide block 53, the other end is arranged in upper beam 56, chain-type conveying assembly 125 comprises base II 43, driven lifting swing arm 44, bay-lift 45, electric machine support 46, motor II 47, bench board 48, driven sprocket 60, oil cylinder II 62, base IV 64, oscillating arm bracket I 65, axis pin base I 66, drive sprocket support 67, location hook 68, chain 69, the support of table 70, driven sprocket support 71, oil cylinder seat I 72, axis pin base II 73, active lifting swing arm 74, oscillating arm bracket II 75, connecting rod I 76, transmission shaft 77, drive sprocket 78, coupler I 79, lifting transmission shaft 80, adapter shaft 127, base II 43, base IV 64 is arranged on pressure device for mark 115 both sides respectively, oil cylinder seat I 72, oscillating arm bracket II 75 is arranged in base IV 64 respectively, oscillating arm bracket I 65 is arranged on base II 43, oil cylinder II 62 is arranged on oil cylinder seat I 72, active lifting swing arm 74 is arranged on oscillating arm bracket II 75 both sides by adapter shaft 127, driven lifting swing arm 44 is arranged on oscillating arm bracket I 65 both sides by adapter shaft 127, axis pin base I 66, axis pin base II 73 is arranged on bay-lift 45 bottom respectively, and bay-lift 45 is by axis pin base I 66, axis pin base II 73, lifting transmission shaft 80 respectively with driven lifting swing arm 44, active lifting swing arm 74 one end connect, active lifting swing arm 74 other end respectively with oil cylinder II 62, connecting rod I 76 one end connects, and driven lifting swing arm 44 other end is connected with connecting rod I 76 other end, electric machine support 46, drive sprocket support 67, the support of table 70, driven sprocket support 71 is arranged on bay-lift 45 respectively, bench board 48 is arranged on the support of table 70, motor II 47 is arranged on electric machine support 46, drive sprocket 78 is arranged on drive sprocket support 67 by transmission shaft 77, driven sprocket 60 is arranged on driven sprocket support 71, and chain 69 is arranged on drive sprocket 78, on driven sprocket 60, location hook 68 is arranged on chain 69, and motor II 47 is connected by coupler I 79 with drive sprocket 78, and pole plate centering assembly 126 comprises push rod 57, adjustment plate 58, swing arm 59, cylinder I 61, cylinder back seat 81, column 82, Connection Block 83, shaft seat 84, rotating shaft 85, column 82 is arranged in base IV 64, shaft seat 84 is arranged on column 82, swing arm 59 one end is arranged on column 82 by rotating shaft 85, push rod 57 is arranged on swing arm 59 other end, adjustment plate 58 is arranged on push rod 57 two ends, and cylinder back seat 81 is arranged on column 82, and Connection Block 83 is arranged on swing arm 59 bottom, cylinder I 61 one end is arranged on cylinder back seat 81, and the other end is connected with the Connection Block 83 of swing arm 59 bottom.
Describedly award that materials device 113 comprises conveying assembly 118, aligns lifting assembly 119, hopper centering assembly 120, aligning lifting assembly 119 is placed in conveying assembly 118, hopper centering assembly 120 is placed in be positioned at outside conveying assembly 118 and aligns lifting assembly 119 place, and conveying assembly 118 comprises base I 1, roller seat 2, upper plate hopper baffle plate I 3, conveying roller 4, burst hopper baffle plate 5, synchronizing shaft 6, upper plate hopper baffle plate II 9, reducing motor 18, motor cabinet I 19, sprocket wheel 20, driving chain 21, tension wheel 22, base I 1 is arranged on ground and is positioned at pressure device for mark 115 one end, roller seat 2, motor cabinet I 19, tension wheel 22 is arranged on base I 1 respectively, reducing motor 18 is arranged on motor cabinet I 19, synchronizing shaft 6 is arranged on base I 1 and is connected with reducing motor 18, sprocket wheel 20 is connected with synchronizing shaft 6, conveying roller 4 is arranged on roller seat 2 and is connected with sprocket wheel 20, driving chain 21 is arranged on sprocket wheel 20, on tension wheel 22, upper plate hopper baffle plate I 3, upper plate hopper baffle plate II 9 is arranged on roller seat 2 two ends respectively, burst hopper baffle plate 5 distributing installation is on roller seat 2, align lifting assembly 119 and comprise motor I 7, guide frame 8, raising plate 10, screw mandrel 11, backing plate 12, pilot bar II 24, motor I 7, guide frame 8 are arranged on base I 1 respectively, screw mandrel 11, pilot bar II 24 are placed in guide frame 8 respectively, be connected with screw mandrel 11 in the middle part of raising plate 10, raising plate 10 two ends are connected with pilot bar II 24, motor I 7 is connected with screw mandrel 11, backing plate 12 is arranged on raising plate 10, hopper centering assembly 120 comprise push pedal 13, pilot bar protecting jacket 14, oil cylinder I 15, to medium-height trestle 16, centering mount pad 17, pilot bar I 23, centering mount pad 17 is arranged on base I 1, be arranged on centering mount pad 17 to medium-height trestle 16, pilot bar protecting jacket 14 is arranged on medium-height trestle 16, pilot bar I 23 is arranged on and is positioned at pilot bar protecting jacket 14 in medium-height trestle 16, oil cylinder I 15 is arranged in the middle part of medium-height trestle 16, and push pedal 13 is connected with oil cylinder I 15, pilot bar I 23 end.
Described empty van output unit 114 comprises frame I 25, protective stent 26, cylinder block 27, cylinder block 28, piston rod 41, earring seats 42, lower fork assembly 123, middle fork assembly 122, upper fork assembly 121, frame I 25 is arranged on awards materials device 113 sidepiece, protective stent 26 is arranged in frame I 25, lower fork assembly 123 is arranged in frame I 25, middle fork assembly 122 is arranged on lower fork assembly 123, upper fork assembly 121 is arranged on middle fork assembly 122, cylinder block 28 is arranged on lower fork assembly 123, earring seats 42 is arranged on middle fork assembly 123, cylinder block 27 is arranged on cylinder block 28, piston rod 41 one end is arranged in cylinder block 27, the other end is connected with earring seats 42, and lower fork assembly 123 comprises lower forked standard 29, running roller I 32, gib block I 33, tooth bar I 34, lower forked standard 29 is arranged in frame I 25, cylinder block 28 is arranged on lower forked standard 29, tooth bar I 34 is arranged in lower forked standard 29, running roller I 32 is arranged on lower forked standard 29, gib block I 33 is arranged on lower forked standard 29 both sides, and middle fork assembly 122 comprises middle fork panel 30, guide plate 35, gib block II 36, pinion stand 37, synchronizer gear 38, guide plate 35 is arranged on both sides, middle fork panel 30 bottom, gib block II 36 is arranged on guide plate 35 bottom, earring seats 42 is arranged on bottom middle fork panel 30, pinion stand 37 is arranged on middle fork panel 30 bottom, synchronizer gear 38 is arranged on and pinion stand 37 is arranged in fork panel 30 engages with the tooth bar I 34 of lower fork assembly 123, middle fork panel 30 is placed on lower forked standard 29 by guide plate 35 inner to coordinate with the running roller I 32 of lower fork assembly 123, gib block II 36 is positioned on gib block I 33, middle fork panel 30 is along gib block II 36 slippage on lower forked standard 29, upper fork assembly 121 comprises fork plate 31, tooth bar II 39, running roller II 40, tooth bar II 39 is arranged on bottom fork plate 31, running roller II 40 is arranged on both sides in bottom fork plate 31, upper fork plate 31 is placed on middle fork panel 30 by running roller II 40 and guide plate 35 outside cooperation, tooth bar II 39 engages with the synchronizer gear 38 of middle fork panel 30, and upper fork plate 31 is by running roller II 40 slippage on middle fork panel 30.
Described robot device 116 comprises sucker 87, sucker mount pad 88, guide pin bushing 89, pilot bar III 90, cylinder mount pad 91, cylinder II 92, balance oscillating arm 93, wrist rotating shaft 94, connecting rod II 95, cylinder III 96, earrings bearing pin 97, stable equilibrium plate 98, mandrel 99, mechanical arm 100, column 101, column 101 is arranged on pressure device for mark 115 both sides, mechanical arm 100 one end is arranged on column 101 by mandrel 99, stable equilibrium plate 98 one end is arranged on mandrel 99 end, balance oscillating arm 93 is arranged on mechanical arm 100 other end by wrist rotating shaft 94, connecting rod II 95 one end is connected with stable equilibrium plate 98 other end by earrings bearing pin 97, connecting rod II 95 other end is connected with balance oscillating arm 93 other end by earrings bearing pin 97, cylinder III 96 one end is arranged on column 101, the piston rod of cylinder III 96 other end is connected with bottom mechanical arm 100, cylinder mount pad 91 is arranged on mechanical arm 100 other end, cylinder II 92 is arranged in cylinder mount pad 91, guide pin bushing 89 is arranged on cylinder mount pad 91, pilot bar III 90 is arranged in guide pin bushing 89, sucker mount pad 88 is arranged on and is connected with cylinder II 92 in pilot bar III 90 one end, sucker 87 is evenly arranged on sucker mount pad 88, sucker 87 is inhaled and has nickel starting sheet 86.
Described drawing mechanism 117 comprises starting sheet pile conveyer 102, frame II 103, lifting fork 104, crane 105, promotes earrings 106, side track adjusting wheel 107, gib block 108, oil cylinder seat II 109, oil cylinder III 110, main track adjusting wheel 111, frame II 103 is placed in pressure device for mark 115 other end, oil cylinder seat II 109 is arranged in frame II 103, crane 105 is arranged in frame II 103, promoting earrings 106 is arranged on crane 105, oil cylinder III 110 one end is arranged on oil cylinder seat II 109, the other end is connected with lifting earrings 106, lifting fork 104 is arranged on crane 105, gib block 108 is arranged on inside frame II 103, side track adjusting wheel 107, main track adjusting wheel 111 is arranged on crane 105 both sides respectively, crane 105 is by side track adjusting wheel 107, main track adjusting wheel 111 coordinates with gib block 108 and is arranged in frame II 103, crane 105 is by side track adjusting wheel 107, main track adjusting wheel 111 slides up and down along gib block 108 in frame II 103, gap 112 is provided with in starting sheet pile conveyer 102, gap 112 is positioned at after lifting fork 104 declines.
The principle of work of nickel starting sheet pressure marking machine group is: pending nickel starting sheet pile is placed on conveying roller 4 by fork truck, burst hopper baffle plate 5 and upper plate hopper baffle plate I 3 limit its position, reducing motor 18 drives synchronizing shaft 6 to rotate, synchronizing shaft 6 is with movable sprocket 20 to rotate, synchronizing shaft 6 provides power for conveyer both sides simultaneously and ensure that the steady conveying that nickel starting sheet is piled up, sprocket wheel 20 drives conveying roller 4 and driving chain 21 to rotate, driving chain 21 drives other sprocket wheel and tension wheel 22 to rotate, thus realize nickel starting sheet pile be fed forward the tensioning with driving chain 21, nickel starting sheet pile is fed forward and bumps against upper plate hopper baffle plate II 9, reducing motor 18 just quits work, motor I 7 drives screw mandrel 11 upward movement on both sides, screw mandrel 11 is raising plate 10 upwardly, raising plate 10 passes through pilot bar II 24 along guide frame 8 upwards easy motion, raising plate 10 is lifted nickel starting sheet pile by backing plate 12, oil cylinder I 15 drives push pedal 13 to travel forward along pilot bar I 23, nickel starting sheet is made to pile up alignment, under the promotion of cylinder II 92, sucker 87 moves downward, and is picked up by nickel starting sheet 86, then by the driving of cylinder III 96, promotion robot arm 100 rotates, under the combined action of jacking system and wheel word, nickel starting sheet 86 is moved to bench board 48, thus completes material process, then cylinder I 61 drives swing arm 59 to swing, shift nickel starting sheet onto desirable position, thus realize the centering of nickel starting sheet, then cylinder I 61 piston rod shrinks, starter motor II 47, motor II 47 drives drive sprocket 78, drive sprocket 78 drives chain 69 thus drives nickel starting sheet 86 to travel forward, transmission shaft 77 realizes the synchronous transport of two chains, now be transported in the middle of oil press be in nickel starting sheet 86 to be processed, start oil cylinder II 62, oil cylinder II 62 drives active lifting swing arm 74, active lifting swing arm 74 drives driven lifting swing arm 44 by connecting rod I 76, active lifting swing arm 74 and driven lifting swing arm 44 make Plane Rotation around oscillating arm bracket II 75 and oscillating arm bracket I 65 respectively, thus realize the decline of bay-lift 45, nickel starting sheet 86 is made to drop on bed die 50, connecting rod I 76 and lifting transmission shaft 80 ensure that the horizontal lifting of bay-lift 45, the mold 51 that plunger 55 promotes under slide block 53 moves downward along pull bar 54, thus realize the pressure mark of nickel starting sheet 86, pressure mark terminates plunger 55 and resets, start oil cylinder II 62, make bay-lift 45 increase, chain 69 holds up nickel starting sheet 86, now the nickel starting sheet 86 being in pressure mark station is had to the effect of the demoulding, reduce the friction of nickel starting sheet 86 and bench board during conveying, starter motor II 47 carries nickel starting sheet 86 to unloading station, manipulator is put on the hopper on lifting fork 104 by pressing nickel starting sheet 86 suction of having marked, until nickel starting sheet pile only surplus empty van time, telescopic fork reaches the nickel starting sheet side of putting down, align bay-lift to decline, empty van is fallen on fork plate 31, cylinder pitches panel 30 toward retraction in being driven by piston rod 41, tooth bar I 34 in lower fork assembly and synchronizer gear 38 engage each other, and synchronizer gear 38 and tooth bar II 39 engage each other thus drive fork plate 31 toward retrude simultaneously, in time being elevated the nickel starting sheet on fork 104 and arriving certain number, start oil cylinder III 110 and drive crane 105 to move downward, nickel starting sheet is piled up on starting sheet pile conveyer 102.
The present invention has following beneficial effect:
1, nickel starting sheet pile only need be placed on conveyer with fork truck by staff, is automatically realized the operations such as material loading, conveying, pressure mark, discharging, realize the automated job of pressure mark overall process by device, can improve the efficiency of nickel starting sheet pressure mark operation;
2, staff is without the need to considering whether nickel starting sheet pile is transported to appropriate position, has nickel starting sheet to pile up aligning gear, good positioning effect;
3, device for mark is pressed can to control the appearance that worktable lifting energy actv. avoids mold sticking;
4, overall process is without the need to hand labor, can avoid the generation of safety misadventure by actv.;
5, simple to operate, work efficiency is high, can improve nickel starting sheet pressure target quality and efficiency by actv..
Accompanying drawing explanation
Fig. 1 is plan structure schematic diagram of the present invention;
Fig. 2 of the present inventionly awards materials device structural representation;
Fig. 3 is that materials device of awarding of the present invention aligns bay-lift structural representation;
Fig. 4 of the present inventionly awards materials device hopper centering unit construction schematic diagram.
Fig. 5 is empty van output unit structural representation of the present invention;
Fig. 6 is empty van output unit telescopic fork structural representation of the present invention;
Fig. 7 is empty van output unit lower fork unit construction schematic diagram of the present invention;
Fig. 8 pitches unit construction schematic diagram in empty van output unit of the present invention;
Fig. 9 pitches assembly in empty van output unit of the present invention to face structural representation;
Empty van output unit of the present invention pitches unit construction schematic diagram to Figure 10;
Figure 11 is pressure device for mark structural representation of the present invention;
Figure 12 is pressure device for mark oil press structural representation of the present invention;
Figure 13 is pressure device for mark chain-type conveying assembly axle geodesic structure schematic diagram of the present invention;
Figure 14 is that pressure device for mark chain-type conveying assembly of the present invention faces structural representation;
Figure 15 is chain-type conveying assembly active lifting assembly axis side structure schematic diagram of the present invention;
Figure 16 is chain-type conveying assembly of the present invention driven jacking system axle side structure schematic diagram;
Figure 17 is the left TV structure schematic diagram of chain-type conveying assembly of the present invention;
Figure 18 is the right TV structure schematic diagram of chain-type conveying assembly of the present invention;
Figure 19 is chain-type conveying assembly chain drive axle side structure schematic diagram of the present invention;
Figure 20 is that structural representation faced by pressure device for mark pole plate centering assembly of the present invention;
Figure 21 is pressure device for mark pole plate centering assembly axle geodesic structure schematic diagram of the present invention;
Figure 22 is robot device structural representation of the present invention;
Figure 23 is robot device axle side of the present invention schematic diagram;
Figure 24 is drawing mechanism Facad structure schematic diagram of the present invention;
Figure 25 is drawing mechanism inverse layer structure schematic diagram of the present invention.
Figure 26 is drawing mechanism raising legs structural representation of the present invention.
In figure, each label is: 1: base I, 2: roller seat, 3: upper plate hopper baffle plate I, 4: conveying roller, 5: burst hopper baffle plate, 6: synchronizing shaft, 7: motor I, 8: guide frame, 9: upper plate hopper baffle plate II, 10: raising plate, 11: screw mandrel, 12: backing plate, 13: push pedal, 14: pilot bar protecting jacket, 15: oil cylinder I, 16: to medium-height trestle, 17: centering mount pad, 18: reducing motor, 19: motor cabinet I, 20: sprocket wheel, 21: driving chain, 22: tension wheel, 23: pilot bar I, 24: pilot bar II, 25: frame I, 26: protective stent, 27: cylinder block, 28: cylinder block, 29: lower forked standard, 30: middle fork panel, 31: above pitch plate, 32: running roller I, 33: gib block I, 34: tooth bar I, 35: guide plate, 36: gib block II, 37: pinion stand, 38: synchronizer gear, 39: tooth bar II, 40: running roller II, 41: piston rod, 42: earring seats, 43: base II, 44: driven lifting swing arm, 45: bay-lift, 46: electric machine support, 47: motor II, 48: bench board, 49: counterdie panel seat, 50: bed die, 51: mold, 52: patrix panel seat, 53: slide block, 54: pull bar, 55: plunger, 56: upper beam, 57: push rod, 58: adjustment plate, 59: swing arm, 60: driven sprocket, 61: cylinder I, 62: oil cylinder II, 63: base III, 64: base IV, 65: oscillating arm bracket I, 66: axis pin base I, 67: drive sprocket support, 68: location hook, 69: chain, 70: the support of table, 71: driven sprocket support, 72: oil cylinder seat I, 73: axis pin base II, 74: active lifting swing arm, 75: oscillating arm bracket II, 76: connecting rod I, 77: transmission shaft, 78: drive sprocket, 79: coupler I, 80: lifting transmission shaft, 81: cylinder back seat, 82: column, 83: Connection Block, 84: shaft seat, 85: rotating shaft, 86: nickel starting sheet, 87: sucker, 88: sucker mount pad, 89: guide pin bushing, 90: pilot bar III, 91: cylinder mount pad, 92: cylinder II, 93: balance oscillating arm, 94: wrist rotating shaft, 95: connecting rod II, 96: cylinder III, 97: earrings bearing pin, 98: stable equilibrium plate, 99: mandrel, 100: mechanical arm, 101: column, 102: starting sheet pile conveyer, 103: frame II, 104: lifting fork, 105: crane, 106: promote earrings, 107: side track adjusting wheel, 108: gib block, 109: oil cylinder seat II, 110: oil cylinder III, 111: main track adjusting wheel, 112: gap, 113: award materials device, 114: empty van output unit, 115: pressure device for mark, 116: robot device, 117: drawing mechanism, 118: conveying assembly, 119: align bay-lift, 120: hopper centering assembly, 121: above pitch assembly, 122: middle fork assembly, 123: lower fork assembly, 124: oil press, 125: chain-type conveying assembly, 126: pole plate centering assembly, 127: adapter shaft.
Detailed description of the invention
Below in conjunction with drawings and Examples, the invention will be further described, but content of the present invention is not limited to described scope.
Embodiment 1: as shown in Fig. 1-2 6, a kind of nickel starting sheet pressure device for mark, comprises and awards materials device 113, empty van output unit 114, pressure device for mark 115, robot device 116, drawing mechanism 117, award materials device 113 and be arranged on pressure device for mark 115 one end, empty van output unit 114 is arranged on awards materials device 113 side, drawing mechanism 117 is arranged on pressure device for mark 115 other end, robot device 116 distributing installation is in pressure device for mark 115 both sides, and pressure device for mark 115 comprises oil press 124, chain-type conveying assembly 125, pole plate centering assembly 126, pole plate centering assembly 126 is arranged on chain-type conveying assembly 125 both sides, oil press 124 is arranged in the middle part of chain-type conveying assembly 125, and oil press 124 comprises counterdie panel seat 49, bed die 50, mold 51, patrix panel seat 52, slide block 53, pull bar 54, plunger 55, upper beam 56, base III 63, base III 63 is placed on ground, counterdie panel seat 49, pull bar 54 is arranged on base III 63 respectively, bed die 50 is arranged on counterdie panel seat 49, slide block 53 is arranged on pull bar 54, patrix panel seat 52 is arranged on slide block 53, mold 51 is arranged on patrix panel seat 52, upper beam 56 is arranged on pull bar 54 top, plunger 55 one end is connected with slide block 53, the other end is arranged in upper beam 56, chain-type conveying assembly 125 comprises base II 43, driven lifting swing arm 44, bay-lift 45, electric machine support 46, motor II 47, bench board 48, driven sprocket 60, oil cylinder II 62, base IV 64, oscillating arm bracket I 65, axis pin base I 66, drive sprocket support 67, location hook 68, chain 69, the support of table 70, driven sprocket support 71, oil cylinder seat I 72, axis pin base II 73, active lifting swing arm 74, oscillating arm bracket II 75, connecting rod I 76, transmission shaft 77, drive sprocket 78, coupler I 79, lifting transmission shaft 80, adapter shaft 127, base II 43, base IV 64 is arranged on pressure device for mark 115 both sides respectively, oil cylinder seat I 72, oscillating arm bracket II 75 is arranged in base IV 64 respectively, oscillating arm bracket I 65 is arranged on base II 43, oil cylinder II 62 is arranged on oil cylinder seat I 72, active lifting swing arm 74 is arranged on oscillating arm bracket II 75 both sides by adapter shaft 127, driven lifting swing arm 44 is arranged on oscillating arm bracket I 65 both sides by adapter shaft 127, axis pin base I 66, axis pin base II 73 is arranged on bay-lift 45 bottom respectively, and bay-lift 45 is by axis pin base I 66, axis pin base II 73, lifting transmission shaft 80 respectively with driven lifting swing arm 44, active lifting swing arm 74 one end connect, active lifting swing arm 74 other end respectively with oil cylinder II 62, connecting rod I 76 one end connects, and driven lifting swing arm 44 other end is connected with connecting rod I 76 other end, electric machine support 46, drive sprocket support 67, the support of table 70, driven sprocket support 71 is arranged on bay-lift 45 respectively, bench board 48 is arranged on the support of table 70, motor II 47 is arranged on electric machine support 46, drive sprocket 78 is arranged on drive sprocket support 67 by transmission shaft 77, driven sprocket 60 is arranged on driven sprocket support 71, and chain 69 is arranged on drive sprocket 78, on driven sprocket 60, location hook 68 is arranged on chain 69, and motor II 47 is connected by coupler I 79 with drive sprocket 78, and pole plate centering assembly 126 comprises push rod 57, adjustment plate 58, swing arm 59, cylinder I 61, cylinder back seat 81, column 82, Connection Block 83, shaft seat 84, rotating shaft 85, column 82 is arranged in base IV 64, shaft seat 84 is arranged on column 82, swing arm 59 one end is arranged on column 82 by rotating shaft 85, push rod 57 is arranged on swing arm 59 other end, adjustment plate 58 is arranged on push rod 57 two ends, and cylinder back seat 81 is arranged on column 82, and Connection Block 83 is arranged on swing arm 59 bottom, cylinder I 61 one end is arranged on cylinder back seat 81, and the other end is connected with the Connection Block 83 of swing arm 59 bottom.
Award that materials device 113 comprises conveying assembly 118, aligns lifting assembly 119, hopper centering assembly 120, aligning lifting assembly 119 is placed in conveying assembly 118, hopper centering assembly 120 is placed in be positioned at outside conveying assembly 118 and aligns lifting assembly 119 place, and conveying assembly 118 comprises base I 1, roller seat 2, upper plate hopper baffle plate I 3, conveying roller 4, burst hopper baffle plate 5, synchronizing shaft 6, upper plate hopper baffle plate II 9, reducing motor 18, motor cabinet I 19, sprocket wheel 20, driving chain 21, tension wheel 22, base I 1 is arranged on ground and is positioned at pressure device for mark 115 one end, roller seat 2, motor cabinet I 19, tension wheel 22 is arranged on base I 1 respectively, reducing motor 18 is arranged on motor cabinet I 19, synchronizing shaft 6 is arranged on base I 1 and is connected with reducing motor 18, sprocket wheel 20 is connected with synchronizing shaft 6, conveying roller 4 is arranged on roller seat 2 and is connected with sprocket wheel 20, driving chain 21 is arranged on sprocket wheel 20, on tension wheel 22, upper plate hopper baffle plate I 3, upper plate hopper baffle plate II 9 is arranged on roller seat 2 two ends respectively, burst hopper baffle plate 5 distributing installation is on roller seat 2, align lifting assembly 119 and comprise motor I 7, guide frame 8, raising plate 10, screw mandrel 11, backing plate 12, pilot bar II 24, motor I 7, guide frame 8 are arranged on base I 1 respectively, screw mandrel 11, pilot bar II 24 are placed in guide frame 8 respectively, be connected with screw mandrel 11 in the middle part of raising plate 10, raising plate 10 two ends are connected with pilot bar II 24, motor I 7 is connected with screw mandrel 11, backing plate 12 is arranged on raising plate 10, hopper centering assembly 120 comprise push pedal 13, pilot bar protecting jacket 14, oil cylinder I 15, to medium-height trestle 16, centering mount pad 17, pilot bar I 23, centering mount pad 17 is arranged on base I 1, be arranged on centering mount pad 17 to medium-height trestle 16, pilot bar protecting jacket 14 is arranged on medium-height trestle 16, pilot bar I 23 is arranged on and is positioned at pilot bar protecting jacket 14 in medium-height trestle 16, oil cylinder I 15 is arranged in the middle part of medium-height trestle 16, and push pedal 13 is connected with oil cylinder I 15, pilot bar I 23 end.
Empty van output unit 114 comprises frame I 25, protective stent 26, cylinder block 27, cylinder block 28, piston rod 41, earring seats 42, lower fork assembly 123, middle fork assembly 122, upper fork assembly 121, frame I 25 is arranged on awards materials device 113 sidepiece, protective stent 26 is arranged in frame I 25, lower fork assembly 123 is arranged in frame I 25, middle fork assembly 122 is arranged on lower fork assembly 123, upper fork assembly 121 is arranged on middle fork assembly 122, cylinder block 28 is arranged on lower fork assembly 123, earring seats 42 is arranged on middle fork assembly 123, cylinder block 27 is arranged on cylinder block 28, piston rod 41 one end is arranged in cylinder block 27, the other end is connected with earring seats 42, and lower fork assembly 123 comprises lower forked standard 29, running roller I 32, gib block I 33, tooth bar I 34, lower forked standard 29 is arranged in frame I 25, cylinder block 28 is arranged on lower forked standard 29, tooth bar I 34 is arranged in lower forked standard 29, running roller I 32 is arranged on lower forked standard 29, gib block I 33 is arranged on lower forked standard 29 both sides, and middle fork assembly 122 comprises middle fork panel 30, guide plate 35, gib block II 36, pinion stand 37, synchronizer gear 38, guide plate 35 is arranged on both sides, middle fork panel 30 bottom, gib block II 36 is arranged on guide plate 35 bottom, earring seats 42 is arranged on bottom middle fork panel 30, pinion stand 37 is arranged on middle fork panel 30 bottom, synchronizer gear 38 is arranged on and pinion stand 37 is arranged in fork panel 30 engages with the tooth bar I 34 of lower fork assembly 123, middle fork panel 30 is placed on lower forked standard 29 by guide plate 35 inner to coordinate with the running roller I 32 of lower fork assembly 123, gib block II 36 is positioned on gib block I 33, middle fork panel 30 is along gib block II 36 slippage on lower forked standard 29, upper fork assembly 121 comprises fork plate 31, tooth bar II 39, running roller II 40, tooth bar II 39 is arranged on bottom fork plate 31, running roller II 40 is arranged on both sides in bottom fork plate 31, upper fork plate 31 is placed on middle fork panel 30 by running roller II 40 and guide plate 35 outside cooperation, tooth bar II 39 engages with the synchronizer gear 38 of middle fork panel 30, and upper fork plate 31 is by running roller II 40 slippage on middle fork panel 30.
Robot device 116 comprises sucker 87, sucker mount pad 88, guide pin bushing 89, pilot bar III 90, cylinder mount pad 91, cylinder II 92, balance oscillating arm 93, wrist rotating shaft 94, connecting rod II 95, cylinder III 96, earrings bearing pin 97, stable equilibrium plate 98, mandrel 99, mechanical arm 100, column 101, column 101 is arranged on pressure device for mark 115 both sides, mechanical arm 100 one end is arranged on column 101 by mandrel 99, stable equilibrium plate 98 one end is arranged on mandrel 99 end, balance oscillating arm 93 is arranged on mechanical arm 100 other end by wrist rotating shaft 94, connecting rod II 95 one end is connected with stable equilibrium plate 98 other end by earrings bearing pin 97, connecting rod II 95 other end is connected with balance oscillating arm 93 other end by earrings bearing pin 97, cylinder III 96 one end is arranged on column 101, the piston rod of cylinder III 96 other end is connected with bottom mechanical arm 100, cylinder mount pad 91 is arranged on mechanical arm 100 other end, cylinder II 92 is arranged in cylinder mount pad 91, guide pin bushing 89 is arranged on cylinder mount pad 91, pilot bar III 90 is arranged in guide pin bushing 89, sucker mount pad 88 is arranged on and is connected with cylinder II 92 in pilot bar III 90 one end, sucker 87 is evenly arranged on sucker mount pad 88, sucker 87 is inhaled and has nickel starting sheet 86.
Drawing mechanism 117 comprises starting sheet pile conveyer 102, frame II 103, lifting fork 104, crane 105, promotes earrings 106, side track adjusting wheel 107, gib block 108, oil cylinder seat II 109, oil cylinder III 110, main track adjusting wheel 111, frame II 103 is placed in pressure device for mark 115 other end, oil cylinder seat II 109 is arranged in frame II 103, crane 105 is arranged in frame II 103, promoting earrings 106 is arranged on crane 105, oil cylinder III 110 one end is arranged on oil cylinder seat II 109, the other end is connected with lifting earrings 106, lifting fork 104 is arranged on crane 105, gib block 108 is arranged on inside frame II 103, side track adjusting wheel 107, main track adjusting wheel 111 is arranged on crane 105 both sides respectively, crane 105 is by side track adjusting wheel 107, main track adjusting wheel 111 coordinates with gib block 108 and is arranged in frame II 103, crane 105 is by side track adjusting wheel 107, main track adjusting wheel 111 slides up and down along gib block 108 in frame II 103, gap 112 is provided with in starting sheet pile conveyer 102, gap 112 is positioned at after lifting fork 104 declines.

Claims (5)

1. a nickel starting sheet pressure device for mark, is characterized in that: comprise and award materials device (113), empty van output unit (114), pressure device for mark (115), robot device (116), drawing mechanism (117), award materials device (113) and be arranged on pressure device for mark (115) one end, empty van output unit (114) is arranged on awards materials device (113) side, drawing mechanism (117) is arranged on pressure device for mark (115) other end, robot device (116) distributing installation is in pressure device for mark (115) both sides, and pressure device for mark (115) comprises oil press (124), chain-type conveying assembly (125), pole plate centering assembly (126), pole plate centering assembly (126) is arranged on chain-type conveying assembly (125) both sides, oil press (124) is arranged on chain-type conveying assembly (125) middle part, and oil press (124) comprises counterdie panel seat (49), bed die (50), mold (51), patrix panel seat (52), slide block (53), pull bar (54), plunger (55), upper beam (56), base III (63), base III (63) is placed on ground, counterdie panel seat (49), pull bar (54) is arranged on base III (63) respectively, bed die (50) is arranged on counterdie panel seat (49), slide block (53) is arranged on pull bar (54), patrix panel seat (52) is arranged on slide block (53), mold (51) is arranged on patrix panel seat (52), and upper beam (56) is arranged on pull bar (54) top, and plunger (55) one end is connected with slide block (53), the other end is arranged in upper beam (56), and chain-type conveying assembly (125) comprises base II (43), driven lifting swing arm (44), bay-lift (45), electric machine support (46), motor II (47), bench board (48), driven sprocket (60), oil cylinder II (62), base IV (64), oscillating arm bracket I (65), axis pin base I (66), drive sprocket support (67), location hook (68), chain (69), the support of table (70), driven sprocket support (71), oil cylinder seat I (72), axis pin base II (73), active lifting swing arm (74), oscillating arm bracket II (75), connecting rod I (76), transmission shaft (77), drive sprocket (78), coupler I (79), lifting transmission shaft (80), adapter shaft (127), base II (43), base IV (64) is arranged on pressure device for mark (115) both sides respectively, oil cylinder seat I (72), oscillating arm bracket II (75) is arranged in base IV (64) respectively, oscillating arm bracket I (65) is arranged on base II (43), oil cylinder II (62) is arranged on oil cylinder seat I (72), active lifting swing arm (74) is arranged on oscillating arm bracket II (75) both sides by adapter shaft (127), driven lifting swing arm (44) is arranged on oscillating arm bracket I (65) both sides by adapter shaft (127), axis pin base I (66), axis pin base II (73) is arranged on bay-lift (45) bottom respectively, and bay-lift (45) is by axis pin base I (66), axis pin base II (73), lifting transmission shaft (80) respectively with driven lifting swing arm (44), active lifting swing arm (74) one end connect, active lifting swing arm (74) other end respectively with oil cylinder II (62), connecting rod I (76) one end connects, and driven lifting swing arm (44) other end is connected with connecting rod I (76) other end, electric machine support (46), drive sprocket support (67), the support of table (70), driven sprocket support (71) is arranged on bay-lift (45) respectively, bench board (48) is arranged on the support of table (70), motor II (47) is arranged on electric machine support (46), drive sprocket (78) is arranged on drive sprocket support (67) by transmission shaft (77), driven sprocket (60) is arranged on driven sprocket support (71), and chain (69) is arranged on drive sprocket (78), on driven sprocket (60), location hook (68) is arranged on chain (69), and motor II (47) is connected by coupler I (79) with drive sprocket (78), and pole plate centering assembly (126) comprises push rod (57), adjustment plate (58), swing arm (59), cylinder I (61), cylinder back seat (81), column (82), Connection Block (83), shaft seat (84), rotating shaft (85), column (82) is arranged in base IV (64), shaft seat (84) is arranged on column (82), swing arm (59) one end is arranged on column (82) by rotating shaft (85), push rod (57) is arranged on swing arm (59) other end, adjustment plate (58) is arranged on push rod (57) two ends, cylinder back seat (81) is arranged on column (82), Connection Block (83) is arranged on swing arm (59) bottom, cylinder I (61) one end is arranged on cylinder back seat (81), and the other end is connected with the Connection Block (83) of swing arm (59) bottom.
2. nickel starting sheet according to claim 1 pressure device for mark, is characterized in that: described in award that materials device (113) comprises conveying assembly (118), aligns lifting assembly (119), hopper centering assembly (120), aligning lifting assembly (119) is placed in conveying assembly (118), hopper centering assembly (120) is placed in be positioned at outside conveying assembly (118) and aligns lifting assembly (119) place, and conveying assembly (118) comprises base I (1), roller seat (2), upper plate hopper baffle plate I (3), conveying roller (4), burst hopper baffle plate (5), synchronizing shaft (6), upper plate hopper baffle plate II (9), reducing motor 1(8), motor cabinet I (19), sprocket wheel (20), driving chain (21), tension wheel (22), base I (1) is arranged on ground and is positioned at pressure device for mark (115) one end, roller seat (2), motor cabinet I (19), tension wheel (22) is arranged on base I (1) respectively, reducing motor (18) is arranged on motor cabinet I (19), synchronizing shaft (6) is arranged on base I (1) and is above connected with reducing motor (18), sprocket wheel (20) is connected with synchronizing shaft (6), conveying roller (4) is arranged on roller seat (2) and is above connected with sprocket wheel (20), driving chain (21) is arranged on sprocket wheel (20), on tension wheel (22), upper plate hopper baffle plate I (3), upper plate hopper baffle plate II (9) is arranged on roller seat (2) two ends respectively, burst hopper baffle plate (5) distributing installation is on roller seat (2), align lifting assembly (119) and comprise motor I (7), guide frame (8), raising plate (10), screw mandrel (11), backing plate (12), pilot bar II (24), motor I (7), guide frame (8) is arranged on base I (1) respectively, screw mandrel (11), pilot bar II (24) is placed in guide frame (8) respectively, raising plate (10) middle part is connected with screw mandrel (11), raising plate (10) two ends are connected with pilot bar II (24), motor I (7) is connected with screw mandrel (11), backing plate (12) is arranged on raising plate (10), hopper centering assembly (120) comprises push pedal (13), pilot bar protecting jacket (14), oil cylinder I (15), to medium-height trestle (16), centering mount pad (17), pilot bar I (23), centering mount pad (17) is arranged on base I (1), be arranged on centering mount pad (17) to medium-height trestle (16), pilot bar protecting jacket (14) is arranged on medium-height trestle (16), pilot bar I (23) is arranged on and is positioned at pilot bar protecting jacket (14) in medium-height trestle (16), oil cylinder I (15) is arranged on medium-height trestle (16) middle part, and push pedal (13) is connected with oil cylinder I (15), pilot bar I (23) end.
3. nickel starting sheet pressure device for mark according to claim 1, is characterized in that: described empty van output unit (114) comprises frame I (25), protective stent (26), cylinder block (27), cylinder block (28), piston rod (41), earring seats (42), lower fork assembly (123), middle fork assembly (122), upper fork assembly (121), frame I (25) is arranged on awards materials device (113) sidepiece, protective stent (26) is arranged in frame I (25), lower fork assembly (123) is arranged in frame I (25), middle fork assembly (122) is arranged on lower fork assembly (123), upper fork assembly (121) is arranged on middle fork assembly (122), cylinder block (28) is arranged on lower fork assembly (123), earring seats (42) is arranged on middle fork assembly (123), cylinder block (27) is arranged on cylinder block (28), piston rod (41) one end is arranged in cylinder block (27), the other end is connected with earring seats (42), lower fork assembly (123) comprises lower forked standard (29), running roller I (32), gib block I (33), tooth bar I (34), lower forked standard (29) is arranged in frame I (25), cylinder block (28) is arranged on lower forked standard (29), tooth bar I (34) is arranged in lower forked standard (29), running roller I (32) is arranged on lower forked standard (29), gib block I (33) is arranged on lower forked standard (29) both sides, and middle fork assembly (122) comprises middle fork panel (30), guide plate (35), gib block II (36), pinion stand (37), synchronizer gear (38), guide plate (35) is arranged on middle fork panel (30) both sides, bottom, gib block II (36) is arranged on guide plate (35) bottom, earring seats (42) is arranged on middle fork panel (30) bottom, pinion stand (37) is arranged on middle fork panel (30) bottom, synchronizer gear (38) is arranged on and pinion stand (37) is arranged in fork panel (30) engages with the tooth bar I (34) of lower fork assembly (123), middle fork panel (30) is placed on lower forked standard (29) by guide plate (35) inner to coordinate with the running roller I (32) of lower fork assembly (123), gib block II (36) is positioned on gib block I (33), middle fork panel (30) is along gib block II (36) slippage on lower forked standard (29), upper fork assembly (121) comprises fork plate (31), tooth bar II (39), running roller II (40), tooth bar II (39) is arranged on fork plate (31) bottom, running roller II (40) is arranged on both sides in fork plate (31) bottom, upper fork plate (31) is placed on middle fork panel (30) by running roller II (40) and guide plate (35) outside cooperation, tooth bar II (39) engages with the synchronizer gear (38) of middle fork panel (30), and upper fork plate (31) is by running roller II (40) slippage on middle fork panel (30).
4. nickel starting sheet pressure device for mark according to claim 1, is characterized in that: described robot device (116) comprises sucker (87), sucker mount pad (88), guide pin bushing (89), pilot bar III (90), cylinder mount pad (91), cylinder II (92), balance oscillating arm (93), wrist rotating shaft (94), connecting rod II (95), cylinder III (96), earrings bearing pin (97), stable equilibrium plate (98), mandrel (99), mechanical arm (100), column (101), column (101) is arranged on pressure device for mark (115) both sides, mechanical arm (100) one end is arranged on column (101) by mandrel (99), stable equilibrium plate (98) one end is arranged on mandrel (99) end, balance oscillating arm (93) is arranged on mechanical arm (100) other end by wrist rotating shaft (94), connecting rod II (95) one end is connected with stable equilibrium plate (98) other end by earrings bearing pin (97), connecting rod II (95) other end is connected with balance oscillating arm (93) other end by earrings bearing pin (97), cylinder III (96) one end is arranged on column (101), the piston rod of cylinder III (96) other end is connected with mechanical arm (100) bottom, cylinder mount pad (91) is arranged on mechanical arm (100) other end, cylinder II (92) is arranged in cylinder mount pad (91), guide pin bushing (89) is arranged on cylinder mount pad (91), pilot bar III (90) is arranged in guide pin bushing (89), sucker mount pad (88) is arranged on and is connected with cylinder II (92) in pilot bar III (90) one end, sucker (87) is evenly arranged on sucker mount pad (88), the upper suction of sucker (87) has nickel starting sheet (86).
5. nickel starting sheet pressure device for mark according to claim 1, is characterized in that: described drawing mechanism (117) comprises starting sheet pile conveyer (102), frame II (103), lifting fork (104), crane (105), promotes earrings (106), side track adjusting wheel (107), gib block (108), oil cylinder seat II (109), oil cylinder III (110), main track adjusting wheel (111), frame II (103) is placed in pressure device for mark (115) other end, oil cylinder seat II (109) is arranged in frame II (103), crane (105) is arranged in frame II (103), promoting earrings (106) is arranged on crane (105), oil cylinder III (110) one end is arranged on oil cylinder seat II (109), the other end is connected with lifting earrings (106), lifting fork (104) is arranged on crane (105), gib block (108) is arranged on frame II (103) inner side, side track adjusting wheel (107), main track adjusting wheel (111) is arranged on crane (105) both sides respectively, crane (105) is by side track adjusting wheel (107), main track adjusting wheel (111) coordinates with gib block (108) and is arranged in frame II (103), crane (105) is by side track adjusting wheel (107), main track adjusting wheel (111) slides up and down along gib block (108) in frame II (103), gap (112) is provided with in starting sheet pile conveyer (102), lifting fork (104) is positioned at gap (112) after declining.
CN201510698068.6A 2015-10-26 2015-10-26 A kind of nickel starting sheet presses device for mark Active CN105293118B (en)

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CN201510698068.6A CN105293118B (en) 2015-10-26 2015-10-26 A kind of nickel starting sheet presses device for mark

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Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109593894A (en) * 2018-12-04 2019-04-09 泉州宝顿机械技术开发有限公司 A kind of hot electric pressing mark is mechanical
CN111573385A (en) * 2020-05-30 2020-08-25 河北泽恒纸塑包装制品有限公司 Environment-friendly paper products arrangement counting assembly

Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3661756A (en) * 1967-02-15 1972-05-09 Phelps Dodge Refining Corp Cathode for electrolyte refining of metal,such as copper
CN102234822A (en) * 2010-11-05 2011-11-09 梧州三和新材料科技有限公司 Manufacturing method of starting sheet for nickel electrolysis
CN103754637A (en) * 2014-01-07 2014-04-30 昆明理工大学 Direct-acting-type automatic nickel starting sheet lug feeder
CN205169915U (en) * 2015-10-26 2016-04-20 昆明理工大学 Mark device is pressed to nickel starting sheet

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US3661756A (en) * 1967-02-15 1972-05-09 Phelps Dodge Refining Corp Cathode for electrolyte refining of metal,such as copper
CN102234822A (en) * 2010-11-05 2011-11-09 梧州三和新材料科技有限公司 Manufacturing method of starting sheet for nickel electrolysis
CN103754637A (en) * 2014-01-07 2014-04-30 昆明理工大学 Direct-acting-type automatic nickel starting sheet lug feeder
CN205169915U (en) * 2015-10-26 2016-04-20 昆明理工大学 Mark device is pressed to nickel starting sheet

Cited By (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN109593894A (en) * 2018-12-04 2019-04-09 泉州宝顿机械技术开发有限公司 A kind of hot electric pressing mark is mechanical
CN111573385A (en) * 2020-05-30 2020-08-25 河北泽恒纸塑包装制品有限公司 Environment-friendly paper products arrangement counting assembly
CN111573385B (en) * 2020-05-30 2021-07-20 河北泽恒纸塑包装制品有限公司 Environment-friendly paper products arrangement counting assembly

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